DE4092382C2 - Clutch cover device - Google Patents

Description

Technical field

The present invention relates to a with a mem Clutch spring device with clutch spring.

Technical background

In a general clutch cover device as shown in Fig. 5, a platen 7, which is attached to a clutch cover 2 by means of a web plate 21, and a diaphragm spring 8 is provided, which abuts a single piece with the pressure plate 7 ausgebil Deten fulcrum 7 a.

In this construction, it is necessary to provide a use play D from a load characteristic as shown in the graph of FIG. 6. However, the range of wear clearance D is limited, so that when the wear of a clutch lining 6 increases, the diaphragm spring 8 is inclined to such an extent that an outer circumferential end area of the diaphragm spring gets into the vicinity of the pressure plate 7 when the clutch is actuated. The loading characteristic is thereby extremely reduced, so that the clutch lining cannot be used to its full degree of wear.

To the game of wear to extend the life of the clutch lining is, for example in Japanese Published Patent Application (KOKAI) No. 63-2 70 925 by the applicant, a clutch cover device tion proposed, which is able to ei the height nes support point area corresponding to the increase in Increase wear on the clutch lining automatically. In this construction there is a support point area on which a diaphragm spring rests, in two inner and outer bearing rings divided so that the on bearing rings with increasing wear of the clutch with a sliding wedge and a spring Diaphragm spring to be moved.

However, since the sliding wedge is in a pressure plate is used that it is movable in the radial direction is the bearing rings sometimes due to Zen created by the rotation of the clutch centrifugal forces shifted too far so that it swelled rig is the weight of the bearing rings and the sliding wedge setting.

Object of the invention

It is the object of the invention to egg life ner clutch to extend and the height of a Aufla area without being influenced by a Zen to increase the centrifugal force precisely by one initially set load according to the groove efficiency of a clutch lining automatically will hold.

Disclosure of the invention

The Erfin sees to the solution of the aforementioned task a clutch cover device in which in nere and outer bearing rings in an annular concave region of a pressure plate arranged in this way are that they are movable in the axial direction, a Inner and outer supports in contact with the diaphragm spring point areas on both support rings with radial Are spaced apart, graduated Be are sufficient to limit the movement of the outer surface area over the inner support point area are formed towards the diaphragm spring, inner and outer compression springs each by annular Fe the receiving plates compressed between the on bearing rings and bottom surfaces of the concave areas are provided, the support rings thereby to Mem are pressed against the axially movable ring shaped locking wires between the support ring gene and wall surfaces of the concave areas arranged and locking springs with a lower spring force as the compression springs are compressed between each the locking wires and the spring retainer plates are seen to taper the locking wires against tapering  Press surfaces of the support rings so that axial Resetting movements of the support rings are blocked.

Brief description of the drawings

Fig. 1 shows in vertical partial section an initially set state of a clutch cover device using the present invention.

Fig. 2 shows a vertical partial section of an engaged te wear.

Fig. 3 shows a vertical partial section of a disengaged clutch when worn.

Fig. 4 shows another embodiment in vertical section.

Fig. 5 shows a vertical section through a conventional embodiment ago ago.

Fig. 6 shows a graphical representation of a loading characteristic.

Best Mode for Carrying Out the Invention Fig. 1 is a partial vertical sectional view of a clutch cover device using the present invention. A clutch cover 2 is on an end face of an input-side flywheel 1 BEFE Stigt and extends in the axial direction to the front. A covering 6 of a clutch disc 3 , a Andruckplat te 7 and a diaphragm spring 8 are provided between one in front of the front wall of the clutch cover 2 and the flywheel 1 from the flywheel 1 (seen from behind) one after the other. The diaphragm spring 8 is held by two wire rings 9 , which in turn are held in a circular shape by a plurality of tabs 10 . The tabs 10 are ausgebil det on the clutch cover 2 . Although not shown in the figure, an inner peripheral end portion of the diaphragm spring 8 is opposite to a release bearing and an outer peripheral end portion of the diaphragm spring 8 is moved forward by the disengagement of the release bearing around the wire rings 9 , as indicated by the chain lines.

Although this is not shown in FIG. 1, the pressure plate 7 is axially movably connected to the clutch cover 2 via a web plate 21 in the same manner as the conventional construction shown in FIG. 5. An annular concave region 11 is formed on the front side of the pressure plate 7 , where an annular inner bearing ring 14 is axially movable on a radially inner peripheral surface of the concave region 11 and an outer bearing ring 15 is axially movable on a radially outer peripheral surface of the concave region 11 . At the front ends of the two support rings 14 , 15 annular support point areas 23 , 24 are formed, with a small radial distance between them. Opposing step regions 14 a and 15 a are formed on fitting parts of the two bearing rings 14 , 15 and the outer bearing ring 15 is prevented by the contact of the two step regions 14 a, 15 a from a forward displacement relative to the inner bearing ring 14 , so that both Support point areas 23 , 24 remain aligned in approximately the same vertical plane.

The annular spring receiving plates 38 , 39 are arranged in the concave region 11 on the back of the bearing rings 14 , 15 such that they can be moved in the axial direction. A plurality of circumferentially beabstan dete spring guide holes 44 , 45 are formed on the rear sides of the spring receiving plates 38 , 39 and meh rere spring guide holes 40 , 41 are formed on a bottom surface of the concave region 11 on the spring guide holes 44 , 45 corresponding positions. An axially compressed inner compression spring 31 is received in the inner spring guide holes 40 , 44 to press the inner bearing ring 14 forward, and an axially compressed outer compression spring 32 is received in the outer spring guide holes 41 , 45 to the outer bearing ring 15 to push forward. The spring loads of the compression springs 31 and 32 are smaller than the pressure load of the diaphragm spring 8 , so that they do not advance the support rings 14 , 15 against the diaphragm spring 8 .

In order to lock the inner bearing ring 14 against backward movement in the axial direction, an axially movable annular inner locking wire 16 is arranged between the inner bearing ring 14 and an inner circumferential surface of the concave region. A tapered inner surface 29 which extends in the forward direction to the radially inner side is formed on the inner peripheral surface of the inner bearing ring 14 , and an annular corrugated inner locking spring 26 , which is weaker than the aforementioned inner compression spring 31 is compressed between the inner locking wire 16 and the inner spring receiving plate 38 is arranged. In this way the inner locking wire is pushed forward by 16 in abutment against the inner surface 29 is verjün constricting, so that the inner bearing ring 14 ge against axial backward movement is blocked.

In order to lock the outer bearing ring 15 against axial backward movement, an axially movable ringför shaped outer locking wire 17 is arranged between the outer bearing ring 15 and an outer peripheral surface of the con cave region. A tapered outer surface 30 extending forward to the radially outer side is formed on the outer peripheral surface of the outer support ring 15 , and an annular corrugated outer locking spring 27 , which is weaker than the aforementioned outer compression spring 32 , is compressed between the outer locking wire 17 and the outer spring receiving plate 39 is arranged. In this way, the outer locking wire 17 is pressed forward against the tapering outer surface 30 , so that the outer bearing ring 15 is locked against axial backward movement.

In the pressure plate 7 , a plurality of pin through holes 48 are formed, and in the front sides of the spring receiving plates 38 , 39 , a plurality of pin through grooves 49 corresponding to the pin through holes 48 are formed. These through holes 48 and the grooves 49 are used when assembling the clutch cover device. Here, when assembling the clutch cover device, the compression springs 31 , 32 and the spring mounting plates 38 , 39 are used in the concave region 11 . Then, in one operation before inserting the support rings 14 , 15 , the pin is inserted into the through hole 48 and the groove 49 , with the compression springs 31 , 32 held in the compressed state, and the support rings 14 , 15 are in the said State used together with the locking wires 16 , 17 , etc. in the concave area 11 .

Of course, the pen must be used before start-up the clutch can be removed.

The mode of operation is described below. In Fig. 1, the initially set state is Darge, in which the two support point areas 23 , 24 touch the diaphragm spring 8 and the respective locking wires 16 , 17 lock the support rings 14 , 15 against axial backward movement. If a disengagement process was carried out in this initial state, the diaphragm spring 8 tilts such that its outer end region, as shown by the broken lines, moves towards the front, the pressure plate 7 is moved forward by a reaction force of the web plate and the clutch is disengaged . The diaphragm spring 8 leaves the outer support point area 24 at the moment of disengagement, but the outer support ring 15 is not pushed ben due to the mutual contact between the step areas 14 a and 15 a ben and the two support point areas 23 and 24 remain in approximately the same vertical plane directed.

In Fig. 2 the case is shown that the clutch lining 6 is worn by the operation, that is, from the state of use, and the diaphragm spring 8 is so inclined that its outer peripheral end region is actuated towards the rear when actuating the clutch. Since between the inner support point region 23 and the membrane spring 8 a game is formed due to this inclination, the support ring 14 and the inner spring receiving plate 38 are advanced by the inner compression spring 31 to the game c until they touch the diaphragm spring 8 .

If the disengagement process is carried out from the state of FIG. 2, the diaphragm spring 8 is inclined such that its outer circumferential end region is inclined forward so that it rests on the inner bearing point region 23 and that its outer circumferential end region simultaneously the outer bearing point region 24 in advance downward direction. In this case, the outer bearing ring 15 is provided by the external compression spring 32 pushed to the aforementioned game c (Fig. 2) fill for For and the step portions 14 a, 15 engage anein a to the other so that both Auflagerpunktbereiche 23, 24 in the same stay aligned.

In the wear state, both Auflagpunktberei che 23 , 24 automatically advanced (increased) by an amount that corresponds to the degree of wear of the clutch lining 6 , and the diaphragm spring 8 is returned to the initially set state.

The embodiment of Fig. 4 has instead of the inner and outer compression springs annular wel-shaped springs 51 , 52 , which are arranged compressed between the bottom surfaces of the concave areas of the spring receiving plates 38 , 39 .

Furthermore, a plate spring can be used instead of the compression spring be used.  

Effect of the invention

With the present invention, the following are pre parts achievable:

1) By simply performing a normal return process in the wear state, the height of the support point areas 23 , 24 can be increased automatically in accordance with the degree of wear of the clutch lining 6 due to the feed effect of the compression springs 31 and 32 and the retention effect of the locking wires 16 , 17 .

Accordingly, the clutch lining can be up to its maximum degree of wear can be used without Maintenance work is required until the time period can be extended to replace a clutch, and the life of the clutch is extended.

2) The annular locking wires 16 , 17 are provided as a locking mechanism for the support rings 14 , 15 , while the spring receiving plates 38 , 39 are formed as ringförmi ge parts, so that the preferred automatic adjustment function can always be maintained without the bearing the clutch to be influenced, as is the case with the construction from published patent application (KOKAI) No. 63-270925, in which the radially movable sliding wedge is provided.

3) Since the height of the support point areas 23 , 24 is automatically increased according to the degree of wear of the clutch lining 6 , the set load can always be kept at a certain value during the operating period.

By setting the load to the peak the load characteristics during assembly, the Bela power are always maintained and the torque transmission power of the clutch remains irrelevant the wear of the clutch lining unchanged.

4) Since the height of the support point areas 23 , 24 is automatically increased according to the degree of wear of the clutch lining 6 , the position (inclination) of the diaphragm spring 8 does not change at the time of clutch actuation, so that the release characteristic remains unchanged.

As a result, the clutch can always be the same Disengagement process.

Claims (1)

Clutch cover device in which

• - Inner (14) and outer bearing rings ( 15 ) in an annular concave region ( 11 ) of a pressure plate ( 7 ) are arranged such that they are movable in the axial direction Rich,
• - A diaphragm spring ( 8 ) touching inner ( 23 ) and outer support point areas ( 24 ) on both supports ( 14 , 15 ) are formed at a radial distance from one another,
• - Step areas ( 14 a, 15 a) are designed to limit the movement of the outer support point area ( 15 ) to the membrane area ( 8 ) beyond the inner support point area ( 23 ),
• - Inner (31) and outer compression springs ( 32 ) by ring-shaped spring receiving plates ( 38 , 39 ) each pressed together between the support rings ( 14 , 15 ) and bottom surfaces of the concave areas ( 11 ) are provided,
• - The support rings ( 14 , 15 ) are pressed towards the diaphragm spring ( 8 ),
• - Axially movable annular locking wires ( 16 , 17 ) are arranged between the support rings ( 14 , 15 ) and wall surfaces of the concave areas ( 11 ), and
• - Locking springs ( 26 , 27 ) with a lower spring force than the compression springs ( 31 , 32 , 51 , 52 ) each compressed between the locking wires ( 16 , 17 ) and the spring receiving plates ( 38 , 39 ) are provided to lock the wires ( 16 , 17 ) against tapering surfaces ( 29 , 30 ) of the support rings ( 14 , 15 ) so that axial restoring movements of the support rings ( 14 , 15 ) are blocked.